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ArrayFire is a high performance software library for parallel computing with an easy-to-use API. Its array based function set makes parallel programming more accessible.

You can install ArrayFire using either a binary installer for Windows, OSX, or Linux or download it from source:

• [Binary installers for Windows, OSX, and Linux](\ref installing)
• Build from source

The [array](\ref construct_mat) object is beautifully simple.

Array-based notation effectively expresses computational algorithms in readable math-resembling notation. You do not need expertise in parallel programming to use ArrayFire.

A few lines of ArrayFire code accomplishes what can take 100s of complicated lines in CUDA or OpenCL kernels.

ArrayFire contains [hundreds of functions](\ref arrayfire_func) across various domains including:

• [Vector Algorithms](\ref vector_mat)
• [Image Processing](\ref image_mat)
• [Computer Vision](\ref cv_mat)
• [Signal Processing](\ref signal_mat)
• [Linear Algebra](\ref linalg_mat)
• [Statistics](\ref stats_mat)
• and more.

Each function is hand-tuned by ArrayFire developers with all possible low-level optimizations.

ArrayFire operates on common [data shapes and sizes](\ref indexing), including vectors, matrices, volumes, and

It supports common [data types](\ref gettingstarted_datatypes), including single and double precision floating point values, complex numbers, booleans, and 32-bit signed and unsigned integers.

ArrayFire can be used as a stand-alone application or integrated with existing CUDA or OpenCL code. All ArrayFire arrays can be interchanged with other CUDA or OpenCL data structures.

With support for x86, ARM, CUDA, and OpenCL devices, ArrayFire supports for a comprehensive list of devices.

Each ArrayFire installation comes with:

• a CUDA version (named 'libafcuda') for NVIDIA GPUs,
• an OpenCL version (named 'libafopencl') for OpenCL devices
• a CPU version (named 'libafcpu') to fall back to when CUDA or OpenCL devices are not available.

ArrayFire supports batched operations on N-dimensional arrays. Batch operations in ArrayFire are run in parallel ensuring an optimal usage of your CUDA or OpenCL device.

You can get the best performance out of ArrayFire using vectorization techniques.

ArrayFire can also execute loop iterations in parallel with [the gfor function](\ref gfor).

ArrayFire performs run-time analysis of your code to increase arithmetic intensity and memory throughput, while avoiding unnecessary temporary allocations. It has an awesome internal JIT compiler to make optimizations for you.

Read more about how ArrayFire JIT can improve the performance in your application.

Here's a live example to let you see ArrayFire code. You create [arrays](\ref construct_mat) which reside on CUDA or OpenCL devices. Then you can use ArrayFire functions on those [arrays](\ref construct_mat).

// sample 40 million points on the GPU
array x = randu(20e6), y = randu(20e6);
array dist = sqrt(x * x + y * y);

// pi is ratio of how many fell in the unit circle
float num_inside = sum<float>(dist < 1);
float pi = 4.0 * num_inside / 20e6;
af_print(pi);

• ArrayFire mailing list (recommended)
• StackOverflow

• Phone Support - available for purchase (request a quote)

• If you need to contact us, visit our contact us page.

• Engineering: technical@arrayfire.com
• Sales: sales@arrayfire.com

If you redistribute ArrayFire, please follow the terms established in the license. If you wish to cite ArrayFire in an academic publication, please use the following reference:

Formatted:

Yalamanchili, P., Arshad, U., Mohammed, Z., Garigipati, P., Entschev, P.,
Kloppenborg, B., Malcolm, James and Melonakos, J. (2015).
ArrayFire - A high performance software library for parallel computing with an
easy-to-use API. Atlanta: AccelerEyes. Retrieved from https://github.com/arrayfire/arrayfire

BibTeX:

@misc{Yalamanchili2015,
abstract = {ArrayFire is a high performance software library for parallel computing with an easy-to-use API. Its array based function set makes parallel programming simple. ArrayFire's multiple backends (CUDA, OpenCL and native CPU) make it platform independent and highly portable. A few lines of code in ArrayFire can replace dozens of lines of parallel computing code, saving you valuable time and lowering development costs.},
address = {Atlanta},
author = {Yalamanchili, Pavan and Arshad, Umar and Mohammed, Zakiuddin and Garigipati, Pradeep and Entschev, Peter and Kloppenborg, Brian and Malcolm, James and Melonakos, John},
publisher = {AccelerEyes},
title = {{ArrayFire - A high performance software library for parallel computing with an easy-to-use API}},
url = {https://github.com/arrayfire/arrayfire},
year = {2015}
}

ArrayFire development is funded by ArrayFire LLC and several third parties, please see the list of acknowledgements.